凋亡体工程策略

Zheyuan Hu, Shutong Qian, Qiuyu Zhao, Bolun Lu, Qian Lu, Yuhuan Wang, Liucheng Zhang, Xiyuan Mao, Danru Wang, Wenguo Cui, Xiaoming Sun
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引用次数: 0

摘要

细胞外囊泡(EVs)是细胞在各种生理和病理条件下分泌的含有蛋白质、脂类、核酸和代谢物的脂质双层囊泡,可介导细胞间的交流。EVs的主要类型包括外泌体、微囊泡和凋亡体(ABs)。ABs 是细胞凋亡末期释放的囊泡,富含多种生物实体,形态特征明显。因此,ABs 因其特异性、靶向能力和生物相容性,在疾病诊断、免疫疗法、再生疗法和药物输送等领域具有巨大潜力。然而,ABs 的疗效存在明显的差异性,过量使用会导致副作用,如在肝脏、脾脏、肺部和胃肠道系统中蓄积。通过生物工程,可以优化 ABs 的特性,以提高药物负载效率、靶向精确性和多功能性,从而在临床上应用。本综述重点介绍转染、超声、电穿孔、表面工程和与生物材料整合等策略,使 ABs 能够负载货物并增强靶向性,从而为 ABs 的工程设计提供深入见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Engineering strategies for apoptotic bodies
Extracellular vesicles (EVs) are lipid bilayer vesicles containing proteins, lipids, nucleic acids, and metabolites secreted by cells under various physiological and pathological conditions that mediate intercellular communication. The main types of EVs include exosomes, microvesicles, and apoptotic bodies (ABs). ABs are vesicles released during the terminal stages of cellular apoptosis, enriched with diverse biological entities and characterized by distinct morphological features. As a result, ABs possess great potential in fields like disease diagnosis, immunotherapy, regenerative therapy, and drug delivery due to their specificity, targeting capacity, and biocompatibility. However, their therapeutic efficacy is notably heterogeneous, and an overdose can lead to side effects such as accumulation in the liver, spleen, lungs, and gastrointestinal system. Through bioengineering, the properties of ABs can be optimized to enhance drug‐loading efficiency, targeting precision, and multifunctionality for clinical implementations. This review focuses on strategies such as transfection, sonication, electroporation, surface engineering, and integration with biomaterials to enable ABs to load cargoes and enhance targeting, providing insights into the engineering of ABs.
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